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Study of the origin and correction of compass measurement errors in Doppler current meters

Surface and subsurface currents are two of the Essential Climate Variables (ECVs) defined by the Global Climate Observing System (GCOS). In situ current measurements can be made by Eulerian methods with instruments on moorings fixed in space. These methods require the determination of two metrologic...

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Published in:	Frontiers in Marine Science 2023-12, Vol.10
Main Authors:	Le Menn, Marc, Lefevre, Dominique, Schroeder, Katrin, Borghini, Mireno
Format:	Article
Language:	English
Subjects:	Accuracy Acoustics Calibration Chemical analysis Climate Climate change Climate system compass Compasses Current meters current profiler current-meter Deep sea moorings Direction Doppler effect Doppler sonar Earth Sciences Environmental Engineering Environmental Sciences Eulerian current measurement Global climate Instrumentation and Detectors Magnetic fields marine currents Measuring instruments Methods mooring Ocean circulation Oceanography Physics Profilers Sciences of the Universe Seawater Sensors Subsurface currents Velocity Water analysis
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description	Surface and subsurface currents are two of the Essential Climate Variables (ECVs) defined by the Global Climate Observing System (GCOS). In situ current measurements can be made by Eulerian methods with instruments on moorings fixed in space. These methods require the determination of two metrological quantities: the speed and the direction of the motion. Their measurement and calibration require the determination of reference velocities and the measure of the angular movement of seawater in relation to the measuring device, as well as of the measuring device in relation to a reference direction given by the magnetic North. This reference direction is determined by electronic compasses integrated into current meters and current profilers. Compasses are sensitive to their magnetic environment, and, therefore, to the objects and instruments that surround them. This publication describes experiments conducted with current meters and current profilers to measure the influence of different devices on the accuracy of their compass measurements. It gives some explanations about the origin of measurement errors and proposes solutions to correct or attenuate the defaults in direction measurements and the measured deviations. Correction formulas are given that can be applied to measured data. They allow the reduction of errors of several tens of degrees for data to be within the instrument’s specifications.
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It gives some explanations about the origin of measurement errors and proposes solutions to correct or attenuate the defaults in direction measurements and the measured deviations. Correction formulas are given that can be applied to measured data. 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subjects	Accuracy Acoustics Calibration Chemical analysis Climate Climate change Climate system compass Compasses Current meters current profiler current-meter Deep sea moorings Direction Doppler effect Doppler sonar Earth Sciences Environmental Engineering Environmental Sciences Eulerian current measurement Global climate Instrumentation and Detectors Magnetic fields marine currents Measuring instruments Methods mooring Ocean circulation Oceanography Physics Profilers Sciences of the Universe Seawater Sensors Subsurface currents Velocity Water analysis
title	Study of the origin and correction of compass measurement errors in Doppler current meters
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